9:30am - 9:45amID: 105
/ SESSION 1: 1
Type of Contribution: Oral
Topics: EXMATEC: Structural characterizationKeywords: AlGaAsBi, growth dynamics, nanomotifs, III-V semiconductor, APDs
Growth Dynamics and Surface Morphology of AlGaAsBi Alloys for Low-Noise Avalanche Photodiode Applications
Verónica Braza Blanco1, Teresa Ben1, Daniel F. Reyes1, Nicholas J. Bailey2, Matthew R. Carr2, Robert D. Richards2, David Gonzalez1
1University Research Institute on Electron Microscopy & Materials, (IMEYMAT). University of Cadiz, Puerto Real (Cádiz) 11510. Spain.; 2The University of Sheffield, School of Electrical and Electronic Engineering, Sir Frederick Mappin Building, Mappin Street, Sheffield S1 3JD, UK
The incorporation of Bi into GaAs has demonstrated significant potential for reducing excess noise in avalanche photodiodes (APDs) by lowering the hole ionization coefficient. It has been proposed that the incorporation of group III elements in GaAsBi alloys, such as Al, could facilitate the development of a novel class of ultra-low noise APDs utilizing GaAs substrates. This study investigates the growth dynamics, surface morphology, and optical properties of AlGaAsBi alloys epitaxially grown on GaAs substrates. By systematically varying the Bi flux and III/V ratio, we identify two distinct types of superficial nanomotifs: "caldera volcanoes" and "dome volcanoes," associated with Bi-rich and Ga-Al-Bi droplets, respectively. The results reveal that higher Bi flux improves interface quality but can lead to droplet formation, while the presence of Al modifies droplet dynamics. These findings provide critical insights into optimizing AlGaAsBi growth for low-noise APDs operating in the near-infrared range.
9:45am - 10:00amID: 106
/ SESSION 1: 2
Type of Contribution: Oral
Topics: EXMATEC: WBG and UWBG material: Growth and CharacterizationKeywords: Ga2O3/SiC heteroepitaxy, MOVPE, Nucleation, Structural defects
Structural characteristics of β‐Ga2O3 films deposited by MOVPE on 4H-SiC templates
Roberto Fornari1,3, Gianfranco Sfuncia2, Corrado Bongiorno2, Giuseppe Nicotra2, Matteo Bosi3, Luca Seravalli3, Francesco Mezzadri4, Antonella Parisini1, Nadia Licciardello5, Davide Patti5, Delfo Sanfilippo5
1Dept. SMFI, University of Parma, Italy; 2CNR-IMM Institute, Catania, Italy; 3CNR-IMEM Institute, Parma, Italy; 4Dept. SCVSA, University of Parma, Italy; 5STMicroelectronics, Catania, Italy
The results of a throughout investigation of β‐Ga2O3/4H-SiC heterostructures are presented, with particular attention to the nucleation of Ga2O3 islands on the stepped 4H-SiC surface. The formation of domains resulting from the deposition of a monoclinic material on a hexagonal substrate is also presented and discussed. This study opens new perspectives for the preparation of heterostructures with improved properties.
10:00am - 10:15amID: 138
/ SESSION 1: 3
Type of Contribution: Oral
Topics: EXMATEC: Nanostructures, EXMATEC: Structural characterizationKeywords: nanowire, characterization, scanning electron microscopy
Backscattered electron microscopy for the characterization of III-V semiconductor nanowires: challenges and opportunities
Paula Mouriño1, Laura Monge-Bartolomé1, Jovana Obradović2, Mariia Lamers3, Sebastian Lehmann3, Miguel Sinusia Lozano1, Žarko Gačević2, Kimberly A. Dick4, Magnus T. Borgstrom3, Víctor J. Gómez1
1Nanophotonics Technology Center, Universitat Politècnica de València, Spain; 2Institute for Optoelectronic Systems and Microtechnology (ISOM), Universidad Politécnica de Madrid, Spain; 3Solid State Physics and NanoLund, Lund University, Sweden; 4Centre for Analysis and Synthesis and NanoLund, Lund University, Sweden
Opposite to planar heterostructures, nanowires (NWs) allow heterostructures to overcome the limits regarding lattice mismatch and strain relief. However, the structural characterization of heterostructured NWs is typically done by means of transmission electron microscopy (TEM), costly and time consuming. In this work, an angular multi-segment detector in backscatter electron (BSE) configuration is employed to analyse III/V semiconductor NWs. We analyse three different sets of NWs: 1.- InGaN/GaN; 2.- GaInP/InP based tandem solar cells; and 3.- triangular GaAs/InAs core/shell. First, we carry out a comprehensive study of the beam conditions (acceleration voltage and beam current) to achieve the highest contrast between the core and the shell. In this work, we demonstrate that by properly adjusting contrast and brightness, either the topography or the compositional contrast can be enhanced. Finally, we show preliminary results in the characterization of defects such as stacking faults and twin-plane superlattices in axially heterostructured NWs.
10:15am - 10:30amID: 151
/ SESSION 1: 4
Type of Contribution: Oral
Topics: EXMATEC: Structural characterizationKeywords: InAs/AlSb heterostructure, ADF-STEM, EDX, ultrafast memory
Quantification of the segregation in InAs/AlSb triple barrier resonant-tunneling
Francisco Alvarado Cesar1, Peter Hodgson2, Manus Hayne2, Teresa Ben3, Verónica Braza3, Daniel F. Reyes3, David González3, Richard Beanland1
1University of Warwick, United Kingdom; 2Lancaster University, United Kingdom; 3Universidad de Cádiz, Spain
ULTRARAM is a low-voltage, ultrafast memory that merges the speed of dynamic random-access memory (DRAM) with the data retention capabilities of a flash memory. The performance of the device relies on a triple barrier resonant tunneling (TBRT) structure, based on a InAs/AlSb heterostructure. Hoever, achieving atomically sharp interfaces within this structure poses a significant challenge due to unintended atomic intermixing and segregation. This lead to the formation of the quaternary alloy Al(x)In(1-x)As(y)Sb(1-y) near the interfaces, that could expand to most of the layer.
In this study, we quantitatively analyze atomic-resolution annular dark field (ADF) scanning transmission electron microscopy (STEM) images by comparing experimental ADF-STEM intensities with image simulations of the quaternary alloy. This analysis is completed by atomic-resolution energy dispersive X-ray (EDX) spectroscopy maps, providing a comprehensive understanding of elemental distribution and interface quality. The resulting Sb composition is modeled using Muraki's segregation model.
10:30am - 10:45amID: 161
/ SESSION 1: 5
Type of Contribution: Oral
Topics: EXMATEC: Structural characterizationKeywords: ECCI; dislocations; III-V semiconductors
Electron Channelling Contrast Imaging for the characterization of dislocations in III-V thin films on Silicon (001)
Laura Monge Bartolome1, Paula Mouriño Miñambres1, Alicia Peiro Codoñer1, Miguel Sinusia Lozano1, Zao Yan2, Ivan Garcia Vara3, Thierry Baron4, Qiang Li2, Victor J. Gomez1
1Nanophotonics Technology Center, Universitat Politècnica de València, Valencia 46022, Spain; 2School of Physics and Astronomy, Cardiff University, Cardiff CF24 3AA, United Kingdom; 3Instituto de Energía Solar, Universidad Politécnica de Madrid, Madrid, Spain; 4Univ. Grenoble Alpes, CNRS, CEA-LETI, LTM, 38054, Grenoble, France
The semiconductor sector has an important need of characterization of materials, in particular, crystalline defects that can be detrimental for devices performance. To this aim, electron channelling contrast imaging (ECCI) has emerged as fast and a non-destructive technique for defect characterization. In this work we established a protocol to easily achieve ECCI measurement conditions in a scanning electron microscope (SEM). By using a retractable back scattered electron detector, we achieve direct observation of dislocation without any sample preparation and with small tilt angles. We have applied it for the characterization of Ga(In)As and GaSb thin films grown on Si. We study different measurement conditions to optimize the observation of defects. We demonstrate direct observation of threading and misfit dislocations in thin films while reducing preparation time, cost and labour compared to other characterization techniques such as transmission electron microscopy (TEM).
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